Aero-spinner

ABSTRACT

The present invention relates to an accessory that is attached to vehicles and it rotates on its axis as the force of the wind drives it. The rotation of the accessory is independent of the rotation of the wheel. It contains two or more air driven surfaces. The ratio of the drag coefficients of the leading surface to the trailing surface is equal to or greater than 1.01. The accessory spins either clockwise or counter clockwise as the vehicle picks up speed creating an extremely attractive view.

CROSS-REFERENCE TO RELATED APPLICATIONS

[0001] Not applicable

STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH OR DEVELOPMENT

[0002] Not applicable

REFERNCE TO SEQUENCE LISTING, A TABLE, OR A COMPUTER PROGRAM LISTING COMPACT DISK APPENDIX

[0003] Not applicable

BACKGROUND OF THE INVENTION

[0004] 1. Field of the Invention

[0005] The present invention relates to an air driven accessory that rotates as a function of the air velocity surrounding the accessory and is attached to vehicle wheels. Its rotation is independent of the rotation of the wheel.

[0006] 2. Description of the Prior Art

[0007] Not applicable

BRIEF SUMMARY OF THE INVENTION

[0008] The present invention is comprised of wheel accessories that spin on its axis of rotation as the air velocity around the vehicle increases. The rotation of the accessory is independent of the rotation of the wheel. Based on the installation of the accessory, it can rotate clockwise or counter clockwise. This invention employs the aerodynamic design of the aero-spinner as the main driving force for its rotation.

[0009] The present invention allows the accessory, based on the aerodynamic design, to have the aero-spinner rotate on its axis when the direction of the air velocity is perpendicular to its axis. The accessories can be fabricated using metals, alloys or non-metallic materials and in many colors.

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWING

[0010]FIG. 1 is a picture of a complete assembly to be installed on one side of the wheel axis. A mirror image of unit shown would be installed on the opposite side of the wheel

[0011]FIG. 2 is cross sections of a complete assembly for either side. The assembly is attached to the wheel axis by the used of the mounting cup and secured by sets-crews. The aero-spinner has a bearing or bushing pressed on to it and secured. The aero-spinner is held in place to the mounting cup by means of a machined bolt that attaches to the protruding shaft of the mounting cup. The cone end cap is screwed on to the aero-spinner.

[0012]FIGS. 3 and 3-A are front views of the right-hand side and left-hand side aero-spinners. FIG. 3 shows the airflow direction striking the leading edge that has a surface having a larger drag coefficient than the trailing edge. FIG. 3-A is a front view of the left-hand side aero-spinner and it is just a mirror image of FIG. 3. The direction of rotation of each aero-spinner can be made to rotate clock-wise or counter clock-wise by selecting the type of aero-spinner during the assembly of the unit. Both can rotate in the same direction or opposite to each other,

[0013]FIG. 4 shows the complete assemblies mounted on a wheel. In the drawing the two assemblies would rotate in the same direction, however, this was by choice since they could be made to rotate in different directions.

DETAILED DESCRIPTION OF THE INVENTION

[0014] The embodiments of the present invention chosen by examples of the different designs used to design the aero-spinners for airflow perpendicular to the axis of rotation.

[0015] Referring to FIGS. 3 (right-hand side) and 3-A (left-hand side) where the airflow is perpendicular to the axis of rotation. The aero-spinner consists of four air driven surfaces located equidistant from each other with a drag coefficient ratio of 1.15 of the leading surface to the trailing surface. The air velocity surrounding the unit applies a force on the larger surfaces. This force is significantly larger than the opposite force being applied to the trailing surface thus creating a resulting force that makes the aero-spinner rotate in the direction of the resulting force.

[0016] The accessories were attached to the axle of the front wheel of a motorcycle by the use of the mounting cup shown on FIG. 2 and secured by sets-crews. As the motorcycle picks up speed, the aero-spinner rotates on its axis at a different rotational speed as that of the wheel. The rotational speed of the aero-spinner is in direct relation to the air velocity. For this example, it was chosen to have the aero-spinner to rotate in the opposite rotational direction as the wheel. The aero-spinners were attached to the wheel having the leading air driving surface located above the axle facing the direction of the air velocity. The aero-spinner rotated at increasing speed as the speed of the motorcycle increased and remained spinning after the motorcycle came to a stop. 

What is claimed is:
 1. An accessory that is attached to a vehicle where the aero-spinner is driven by the surrounding air velocity and this rotation is independent of the rotation of the wheel.
 2. The accessory in claim 1, further includes; (a) the design of the rotating part incorporates the drag coefficient of the leading surface is at least 1.01 times greater than the drag coefficient of the trailing surface; (b) where by the rotating part can be made clockwise or counter clockwise depending on the orientation of the rotating devise at the time of installation; (c) where the speed of rotation at constant airflow velocity can be adjusted by adjusting the ratios of the drag coefficients.
 3. The accessory in claim 1, further includes; (a) where the accessory can be attached to the wheel over the axle; (b) where the accessory can be attached to the axle nut; (c) where the accessory is held in place by a set screw (s).
 4. The accessory in claim 1, further includes; (a) the aero-spinner is attached to its axis by the use of a sealed bearing; (b) the aero-spinner is attached to its axis by the use of a bushing.
 5. The accessory in claim 1, further includes; (a) where the accessory can be fabricated of any metal or alloys. (1) where the accessory can be chrome plated; (2) where the accessory can be anodized; (3) where the accessory can be polished; (4) where the accessory can be painted; (b) where the accessory can be fabricated of non-metallic materials. (1) where the accessory can be molded using different plastics; (2) where the color of the plastic can be changed by using different coloring agents. 